Application of a folded nanostructure reinforcement for the pole vault curved shell.
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| Title: | Application of a folded nanostructure reinforcement for the pole vault curved shell. |
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| Authors: | Zhiqiang, Song1 (AUTHOR), Aiyun, Li2 (AUTHOR), Daichang, Zhao1 (AUTHOR), Shuangjun, Li1 (AUTHOR) lishuangjun@sdpei.edu.cn, Habibi, Mostafa3,4,5,6 (AUTHOR), Xiaoling, Feng7 (AUTHOR), Albaijan, Ibrahim8 (AUTHOR) |
| Source: | Mechanics of Advanced Materials & Structures. 2025, Vol. 32 Issue 9, p2109-2123. 15p. |
| Subjects: | Hamilton's principle function, Equations of motion, Shear reinforcements, Structural shells, Thermal properties |
| Abstract: | Foldability capacity is now introduced as a novel nanofiller reinforcement production procedure using some operation to control the mechanical, thermal and electrical properties in the sport equipment. Application of this type of nanofillers in the curved structures like pole vault shell leads to a novel engineering and sport shell shape structures. This article is organized to suggest a vibration-based formulation for analysis of folded reinforced curved shell sport structure subjected to thermal and mechanical loading. Using computation of kinetic, strain and external energies, one can arrive the motion's equations using the minimization of total energy and Hamilton's principle. Using solution of the motion's equations through an analytical approach, the parametric analysis is presented. The verified test is presented for confirmation of the solution and trend of results. [ABSTRACT FROM AUTHOR] |
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| Database: | Engineering Source |
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| Abstract: | Foldability capacity is now introduced as a novel nanofiller reinforcement production procedure using some operation to control the mechanical, thermal and electrical properties in the sport equipment. Application of this type of nanofillers in the curved structures like pole vault shell leads to a novel engineering and sport shell shape structures. This article is organized to suggest a vibration-based formulation for analysis of folded reinforced curved shell sport structure subjected to thermal and mechanical loading. Using computation of kinetic, strain and external energies, one can arrive the motion's equations using the minimization of total energy and Hamilton's principle. Using solution of the motion's equations through an analytical approach, the parametric analysis is presented. The verified test is presented for confirmation of the solution and trend of results. [ABSTRACT FROM AUTHOR] |
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| ISSN: | 15376494 |
| DOI: | 10.1080/15376494.2024.2375368 |